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Aerosol Science and Technology Volume 48, 2014 - Issue 2
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Original Articles

An Aerosol-Based Process for Electrostatic Coating of Particle Surfaces with Nanoparticles

Stephanie Sigmund Institut für Mechanische Verfahrenstechnik und Mechanik, Karlsruhe Institute of Technology, Karlsruhe, Germany
,
Mingzhou Yu Institut für Mechanische Verfahrenstechnik und Mechanik, Karlsruhe Institute of Technology, Karlsruhe, Germany; Institute of Earth Environment, Chinese Academy of Sciences, Xi’an, China
,
Jörg Meyer Institut für Mechanische Verfahrenstechnik und Mechanik, Karlsruhe Institute of Technology, Karlsruhe, Germany
&
Gerhard Kasper Institut für Mechanische Verfahrenstechnik und Mechanik, Karlsruhe Institute of Technology, Karlsruhe, Germany
Pages 142-149 | Received 18 Jun 2013, Accepted 30 Sep 2013, Published online: 26 Dec 2013

Figures & data

FIG. 1 Setup for generation of a highly charged carrier particle aerosol.

FIG. 1 Setup for generation of a highly charged carrier particle aerosol.

FIG. 2 Carrier particle charge distribution.

FIG. 2 Carrier particle charge distribution.

FIG. 3 Mobility size distribution and morphology of uncoated carrier particles in Boltzmann charge state.

FIG. 3 Mobility size distribution and morphology of uncoated carrier particles in Boltzmann charge state.

FIG. 4 Setup for generation of charged coating particle aerosol.

FIG. 4 Setup for generation of charged coating particle aerosol.

FIG. 5 Morphology and mobility size distribution of the coating particle.

FIG. 5 Morphology and mobility size distribution of the coating particle.

FIG. 6 TEM image of a silica particle with a deposit of Pd particles visible around the edges.

FIG. 6 TEM image of a silica particle with a deposit of Pd particles visible around the edges.

FIG. 7 Evolution of the carrier particle charge as a function of coating time (coating particle concentration 3 × 106 per cm3). The slight decrease in total concentration indicates the losses of carrier particles during the coating time.

FIG. 7 Evolution of the carrier particle charge as a function of coating time (coating particle concentration 3 × 106 per cm3). The slight decrease in total concentration indicates the losses of carrier particles during the coating time.

FIG. 8 Mean electrical charge of the carrier particles versus coating time for different coating particle concentrations.

FIG. 8 Mean electrical charge of the carrier particles versus coating time for different coating particle concentrations.

FIG. 9 Comparison of calculated and measured particle attachment versus time for three concentrations of coating particles.

FIG. 9 Comparison of calculated and measured particle attachment versus time for three concentrations of coating particles.

FIG. 10 Attachment of electrically neutral coating particles due to diffusion versus time.

FIG. 10 Attachment of electrically neutral coating particles due to diffusion versus time.

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